JP3176183U - Linear sliding block - Google Patents

Abstract

Provided is a linear sliding block which is used for mounting a moving object and in which the moving object moves along a linear sliding rail.
A linear sliding block (10) includes a base block (1), a circulator (2) coupled to both ends of the base block (1), and a plurality of rolling balls (3) accommodated in the base block (1). The body 14 is provided, the rail groove 11 is provided on the bottom surface of the base body 13, the cover body 14 is integrally formed to cover the base body 13, and is connected between the end blocks 141 located at both ends of the base body 13 and the end blocks 141 on both sides. The connecting tracks 142 and the load tracks 12 formed on both sides of the rail groove 11 are formed. Each end block 141 corresponds to one surface of the circulator 2 and forms a first oil passage 15 communicating between the load tracks 12. Each load truck 12 forms a second oil passage, and both ends of the second oil passage communicate with the first oil passage 15.
[Selection] Figure 2

Description

The present invention relates to a linear sliding block, and more particularly to a linear sliding block that is used for mounting a moving object, and the moving object moves along a linear sliding rail.

Conventional linear sliding rails and sliding blocks are precision-manufactured machine components, which are moving structures applied in areas such as machine tools, dedicated machines and automatic control, and are one of linear motion devices.

A conventional linear sliding block is composed of a base block, two circulators, and a plurality of rolling balls. On the bottom surface of the base block, a rail groove corresponding to the linear sliding rail is installed in a recessed shape. A load track is installed in a recessed shape on both side walls of the rail groove, and a no-load track communicating with both ends of the base block is installed on both sides of the base block. The circulators are respectively combined at both ends of the base block so that the load truck communicates with the unloaded truck through the circulator.

Multiple rolling balls are stored side by side in a load track and a non-load track. When the rail groove of the linear sliding block is placed on the linear sliding rail, the rolling ball in the load track is loaded on the linear sliding block. multiply. Thereby, the smooth and stable slide movement of the linear sliding block along the linear sliding rail can be guided.

Also, when the rolling ball moves, friction is generated with the load track and the linear sliding rail, but an oil tank is usually installed in the circulator to reduce the frictional force and prevent the rolling ball or the linear sliding rail from being worn. . Thus, the lubricating oil (grease or the like) stored in the oil tank is attached to the rolling ball that passes through the circulator, thereby preliminarily lubricating the rolling ball.

However, the oil tank installed in the conventional circulator can lubricate only when the rolling ball passes, and it cannot lubricate each rolling ball in the load track. When moving at high speed on a load truck, the lubricating oil adhering to the surface is shaken off or washed away, causing a situation of insufficient lubrication.

Furthermore, in the conventional base block structure, since the loaded track and the unloaded track must be drilled, cut, and polished, the manufacturing process becomes complicated, which is disadvantageous for cost reduction.

Linear sliding rails and linear sliding blocks are often applied in mechanical structures such as sliding rails that serve as operating platforms. For this reason, foreign matters such as dust and iron scraps in the operating environment tend to enter the gap between the load track and the rolling ball. However, since the conventional linear sliding block does not have a foreign matter removal design, the foreign matter is likely to accumulate in the gap, causing the rolling balls and load tracks to wear out. In severe cases, the linear sliding block Vibration occurs during movement, and the situation does not go smoothly or even gets caught.
The present invention has been made in view of the above-described drawbacks of the conventional linear sliding block.

None

The problem to be solved by the present invention is to provide a linear sliding block.

In order to solve the above problems, the present invention provides the following linear sliding block.
The linear sliding block includes a base block, two circulators assembled at both ends of the base block, and a plurality of rolling balls movably installed in the base block. The base block includes a base body and a cover body. The platform includes an exposed apex surface used for a load and a bottom surface opposite to the exposed apex surface, and a rail groove is provided in a depressed shape on the bottom surface, and at least on both sides of the rail groove, One load track is installed, the circulator communicates with the load track, and the plurality of rolling balls are housed in the load track and roll while moving in contact with the linear sliding rail. The body is a molding structure that covers the base body by integral molding, and two end blocks formed at both ends of the base body, the two end blocks At least one connecting portion connected between the locks and a load track integrally formed on both sides of the rail groove are provided, and the end blocks on both sides correspond to one surface of the circulator and have at least one first oil passage. One side of the first oil passage communicates with the load track, and a second oil passage is integrally formed with the load track, and both ends of the second oil passage are connected to the first oil passage. Through the improvement of the linear sliding block structure of the present invention, the first oil path can be obtained simply by adopting the modal molding manufacturing process using the first oil path and second oil path structure design of the base block cover body. And a second oil path can be formed, and it is not necessary to perform drilling or cutting on the metal base, thereby simplifying the manufacturing process of the linear sliding block. In addition, due to the structure that communicates with the second oil path through the first oil path, the lubricating oil can enter the load truck on which the entire rolling ball moves, thereby sufficiently In addition, the second oil passage design is used as a waste discharge groove, and when foreign matter such as iron scrap and sand particles from the outside enters the load track, the foreign matter is removed through the rolling motion of the rolling ball. It can be taken out to the two oil passages so that the foreign matter does not keep in contact with the rolling ball, and thus the rolling ball can be prevented from being worn.

The linear sliding block of the present invention can simplify the manufacturing process of the linear sliding block, reduce the cost, achieve the effect of sufficiently lubricating the entire rolling ball, and also achieve the effect of preventing the rolling ball from being worn out. Can do.

FIG. 2 is an exploded schematic view of a linear sliding block and a linear sliding rail according to the present invention. FIG. 4 is an exploded schematic view of an embodiment of the linear sliding block according to the present invention. It is a three-dimensional schematic diagram of an embodiment of the present invention base block. It is an end surface schematic diagram of the present invention base block embodiment. It is a three-dimensional schematic diagram of this invention base body Example. It is a local cross-sectional schematic diagram of the cover body and base block combination structure of this invention. It is a three-dimensional cross-section schematic diagram of this invention cover body and base block combination structure. It is a use state schematic diagram of the linear sliding block of the present invention.

The best mode for carrying out the present invention will be described below in detail with reference to the drawings.

As shown in FIGS. 1 and 2, the linear sliding block 10 of the present invention is a sliding component that is assembled on a linear sliding rail 20. The embodiment includes a base block 1, two circulators 2, and a plurality of rolling balls 3.

The base block 1 is a rectangular block body, and a rail groove 11 corresponding to the linear sliding rail 20 is provided in a recessed shape on the bottom surface. At least one load track 12 is installed on each side of the rail groove 11.

The circulator 2 is assembled at both ends of the base block 1 and communicates with the load tracks 12 at both ends of the base block 1. The plurality of rolling balls 3 are housed in a rolling shape in the load track 12 of the base block 1 and roll while moving in contact with the linear sliding rail 20. Thereby, the linear sliding block 10 can achieve the function of sliding smoothly.

As shown in FIGS. 3 and 4, the base block 1 of the present invention includes a base body 13 and a cover body 14 whose local part covers the base body 13. As shown in FIG. 5, the base 13 is a block body made of a metal material, and the structure thereof includes an exposed vertex surface 131 used for a load and a bottom surface opposite to the exposed vertex surface 131. The rail groove 11 is installed in a depressed shape.

As shown in FIGS. 3, 6, and 7, the cover body 14 is a molding structure that covers the base body 13 by integral molding (plastic cover injection molding or the like), and includes two end blocks 141 formed at both ends of the base body 13, At least one connecting portion 142 connected between the two end blocks 141 is provided. Further, the load track 12 is formed on both sides of the rail groove 22 by the integral molding method of the cover body 14, and thus the base block 1 structure is composed.

As shown in FIGS. 3 and 4, the present invention designs an integrally molded first oil passage 15 on one surface of the circulator 2 to which the end blocks 141 on both sides of the cover body 14 correspond. Thereby, at least one side of the first oil passage 15 communicates with the load truck 12. An integrally molded second oil passage 16 is designed for the load track 12, whereby the second oil passage 16 extends along the load track 12 to the end blocks 141 at both ends of the cover body 14, and the second oil passage is formed. Both ends of 16 communicate with the first oil passage 15. When the lubricating oil is filled in the first oil passage 15 in this way, the lubricating oil passes through the first oil passage 15 and comes into contact with the rolling ball 3 entering the load truck 12, and the lubricating oil passes through the second oil passage 15. 16, the entire rolling ball 3 can be sufficiently lubricated.

As shown in FIGS. 3 and 4, the first oil passage 15 of the present invention has a U-shape and is a concave groove surrounding the rail groove 11 and communicates with the load tracks 12 formed on both sides of the rail groove 11. Therefore, all of the rolling balls 3 entering side by side along the load tracks 12 on both sides of the rail groove 11 can be attached with lubricating oil. The second oil path 16 of the present invention is installed in a recessed shape in the concave groove of the load track 12, whereby the lubricating oil enters the second oil path 16. In this way, it comes into contact with the rolling ball 3 that rolls, thereby achieving the purpose of lubrication.

As shown in FIGS. 7 and 8, the load track 12 formed on the cover body 14 of the present invention forms a hole path communicating with the rail groove 11, and the rolling ball 3 rolls in the load track 12. The rolling ball 3 entering the load track 12 applies a load to the linear sliding rail 20, but in order to increase the load force and precision of the load track 12, the present invention provides a plurality of rails on both sides of the rail groove 11 of the base 13. The load portions 121 used for the load of the rolling ball 3 are installed in a protruding shape. The load portion 121 has an arc shape, and the load portion 121 is exposed in the load track 12 when the load track 12 is injection-molded on the cover body 14. Thus, the rolling ball 3 rolls in contact with the load portion 121, and can receive a larger load with higher precision.

As shown in FIGS. 6 and 7, the cover body 14 of the present invention can integrally mold the unloaded track 17 communicating with the two end blocks 141 at the same time. When the circulator 2 is assembled to the end blocks 141 at both ends, both ends of the no-load track 17 pass through the structure inside the circulator 2 and communicate with the load track 12. Thereby, the circulation rolling function of the rolling ball 3 is achieved, and at the same time, the drilling process of the metal base 13 is not required, and the manufacturing method is simplified and the cost reduction effect is achieved by using the structure method of integrally forming the cover 14. can do.

Further, as shown in FIGS. 3 and 4, the present invention further provides at least one third oil passage 18 between the end blocks 141 on both sides of the cover body 14. As a result, the third oil passage 18 communicates with the first oil passages 15 at both ends, and thus the lubricating oil sufficiently circulates at both ends.

The position where the lubricating oil is filled and entered into the first oil passage 15 can be either one of the end blocks 141 of the cover body 14 or the circulator 2 as shown in FIG. Therefore, the circulator 2 is provided with an oil injection hole 21 communicating with the first oil passage 15, and the lubricating oil is supplied to the first oil passage 15, the second oil passage 16 and the third oil passage 18 through the oil injection hole 21. And enter.

The names and contents of the present invention described above are only used for explaining the technical contents of the present invention, and do not limit the present invention. All equivalent applications based on the spirit of the present invention, parts (structures) conversion, replacement, and quantity increase / decrease shall be included in the protection scope of the present invention.

The present invention has the novelty that is a requirement for utility model registration, has sufficient inventive step compared to conventional similar products, has high practicality, meets the needs of society, and the industrial utility value is very Big.

10: Linear sliding block, 20: Linear sliding rail, 1: Base block, 11: Rail groove, 12: Load track, 121: Load section, 13: Base, 131: Exposed vertex surface, 14: Cover body, 141: End block, 142: articulated portion, 15: first oil path, 16: second oil path, 17: no-load truck, 18: third oil path, 2: circulator, 21: lubrication hole, 3: rolling ball.

Claims (7)

A linear sliding block comprising a base block, a base block, two circulators assembled at both ends of the base block, and a plurality of rolling balls movably installed in the base block,
The base block includes a base body and a cover body. The base body includes an exposed vertex surface used for a load and a bottom surface opposite to the exposed vertex surface, and a rail groove is provided in a recessed shape on the bottom surface. And at least one load track on each side of the rail groove,
The circulators communicate with the load tracks,
The plurality of rolling balls are housed in the load track and move while rolling while contacting the linear sliding rail,
The cover body is a molding structure that covers the base body by integral molding, and includes two end blocks formed at both ends of the base body, at least one connecting portion connected between the two end blocks, and both sides of the rail groove. Equipped with a load truck that is integrally molded with
The end blocks on both sides correspond to one surface of the circulator, integrally form at least one first oil passage, one side of the first oil passage communicates with the load track, A linear sliding block, wherein a second oil passage is integrally formed, and both ends of the second oil passage communicate with the first oil passage. 2. The linear sliding block according to claim 1, wherein the first oil passage is a concave groove surrounding the rail groove and communicates with load tracks on both sides of the rail groove. The linear sliding block according to claim 1, wherein the second oil passage is installed in a recessed shape in the groove of the load track. The load track formed in the cover body is a hole path communicating with the rail groove,
On both sides of the rail groove of the base, load parts used for loading a plurality of rolling balls are installed,
The linear sliding block according to claim 1, wherein the load portion is exposed in a hole path of the load track. The cover body is integrally molded with a no-load track communicating with the two end blocks,
The linear sliding block according to claim 4, wherein both ends of the unloaded track communicate with the loaded track through the circulator. Between the end blocks on both sides of the cover body, install at least one third oil passage,
The linear sliding block according to claim 1, wherein the third oil path communicates with the first oil paths at both ends. The linear sliding block according to claim 1, wherein an oil injection hole communicating with the first oil passage is provided in the circulator.